If the organelles were removed, the soluble part that would be left is called the cytosol. It consists mainly of water with dissolved substances such as amino acids in it.

Also present in the cytosol are larger proteins and enzymes used in reactions within the cell. Running through the cytosol is endoplasmic reticulum (ER), a system of flattened cavities lined by a thin membrane. It is the site of the synthesis of many substances in the cell and so provides a compartmentalised area in which this takes place. The cavities also function as a transporting system whereby substances can move through them from one part of the cell to another.

There are 2 types of ER - rough (RER) and smooth (SER). SER obviously looks as though it has a smooth surface. It is where lipids and steroids are made so you would expect there to be a lot of SER in liver cells where lipid is metabolised.

RER looks rough on the surface because it is studded with very small organelles called ribosomes. Ribosomes are made of RNA and protein and are the site of protein synthesis (see DNA and Genetic Code).

There may be free ribosomes in the cytoplasm as well, which also are the site of protein synthesis. The proteins (which include enzymes) that are synthesised then move into the cavities of the RER to be transported.

The Golgi apparatus is a series of flattened layers of plate-like membranes.

The proteins that are made by the RER for export from the cell are pinched off at the end of the cavity of the RER, so that a layer of membrane surrounds them. The whole structure is called a vesicle. This vesicle will move through the cytosol and fuse with the membrane of the Golgi apparatus.

In the cavity of the Golgi apparatus, the vessel proteins are modified for export - for example, by having a carbohydrate added to the protein. At the end of a Golgi cavity, the secretory product is pinched off so that the vesicle containing the substance can move through the cytosol to the cell surface membrane.

The vesicle will fuse with this membrane and so release the secretory product. If the vesicle contains digestive enzymes, it is called a lysosome. Lysosomes may be used inside the cell during endocytosis, or to break-down old, redundant organelles.

A typical cell may contain 1,000 mitochondria, though some will contain many more. Generally, they are sausage-shaped organelles whose walls consist of 2 membranes.

The inner membrane is folded inwards to form projections called cristae. Inside this is the matrix.

Most of the reactions for aerobic respiration take place in the mitochondria so it is an incredibly important organelle.

During respiration, ATP is produced, which is used to provide energy for the cells' reactions. Most of the ATP is produced on the inner mitochondrial membrane.It is highly folded so there is maximum surface area available.

Chloroplasts will be discussed in photosynthesis - but, like the mitochondria - they have an envelope of two membranes making up the outer "wall".

They have pairs of membranes called thylakoids arranged in stacks, each stack being called a granum. Connecting different grana together are inter-granal thylakoids. Surrounding the internal membranes, inside the envelope is the stroma.

The reactions of photosynthesis take place in the membranes and stroma of the chloroplast.

The cell wall is rigid and made of cellulose fibres running through a mixture of other polysaccharides (more complex sugars) such as pectins and hemicelluloses.

The sticky middle lamella that holds next-door cells together is made of calcium pectate and magnesium pectate.

In young cells, the cellulose fibrils of the primary cell wall run parallel to each other. In older cells, a secondary cell wall may be laid down where the fibres are all parallel to each other, but at a different angle to those of the primary cell wall.

The cell wall is fully permeable unless a substance called lignin is deposited in the cellulose layers. Lignin makes the cell wall very strong and resistant to strain but it also makes it impermeable. If all the gaps between the fibres are filled in, the wall becomes completely impermeable and the cell will die.

Vacuole: a fluid-filled space in the cytoplasm surrounded by a membrane called the tonoplast. It contains a solution of sugars and salts called the cell sap.

Microtubules: hollow rod-like structures with walls of tubulin protein. They provide the structural support of cells and can aid transport through the cell.

Microfilaments: rod-like structures made of contractile protein. Again, like microtubules, provide support and aid movement.

Centrioles: a pair of short hollow cylinders, usually found near the nucleus of an animal cell. They are involved in the formation of spindle fibres used in mitosis (see Reproduction and Cell Cycle Learn-it).

Cilia: hollow tubes extending outside some cells. They move fluid, which is outside the cell - for example, ciliated cells lining the respiratory tract move mucus, away from the lungs.

Flagella: similar to cilia, though longer. Used in the movement of the whole cell. The only structure like this in humans is the tails of the sperm.

To obtain reliable information about the activity of an organelle, it is necessary to isolate it and test it individually.

First the cells are broken open or cell fractionation occurs to produce a homogenate or suspension. This is done using a blender with the cells in an isotonic, cold solution. Because the solution is isotonic, the organelles neither gain, or loose water by osmosis and as it is cold, the action of enzymes, which might damage the organelles, is prevented.

Differential centrifugation of the suspension is then carried out. A tube containing the suspension is spun in a centrifuge at a speed, which causes the heaviest organelles to be thrown to the bottom, forming a sediment. The other lighter organelles remain floating in the clear supernatant fluid above the sediment.

The sediment may be removed and the activity of the heaviest organelles such as the nucleus, determined. The supernatant may then be spun at a faster speed so that lighter organelles like the mitochondria sediment out.